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土壤水分亏缺加剧了冬小麦光合作用的臭氧伤害效应

沈新智吴荣军徐彦森尚博冯燕茹冯兆忠

农业环境科学学报2025，Vol.44Issue(4)：880-889,10.

农业环境科学学报2025，Vol.44Issue(4)：880-889,10.DOI:10.11654/jaes.2024-0875

土壤水分亏缺加剧了冬小麦光合作用的臭氧伤害效应

Soil moisture deficit exacerbates the ozone-damaging effect of photosynthesis in winter wheat

沈新智 ¹吴荣军 ²徐彦森 ²尚博 ²冯燕茹 ²冯兆忠²

作者信息

1. 南京信息工程大学生态与应用气象学院,南京 210044
2. 南京信息工程大学生态与应用气象学院,南京 210044||中国气象局生态系统碳源汇重点开放实验室,南京 210044
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摘要

Abstract

The study aim to investigate the mechanism underlying the combined effect of surface ozone(O3)pollution and soil moisture(SM)deficit on photosynthetic physiology of winter wheat.Using the O3-FACE system,four treatment groups were established with two levels of O3 exposure and two levels of water treatment:ACK(ambient O3+water control),AWS(ambient O3+water stress),ECK(elevated O3+water control),and EWS(elevated O3+water stress).Field experiment were conducted to investigated the individual and combined impacts of SM deficit and O3 stress photosynthetic physiological parameters of winter wheat,and to elucidate the underlying mechanism.The results showed that from the onset of the grain-filling period,compared to the ACK,the AWS treatment led to reductions of the light-saturated rate of CO2 assimilation(Asat),leaf stomatal conductance(gs),intercellular carbon dioxide concentration(Ci),electron transfer rate(ETR),chlorophyll content(Chl),and total antioxidant capacity(TAC)of winter wheat by 23.7％-44.7％,30.1％-56.3％,8.0％,27.3％-30.3％,14.9％-18.7％,and 29.2％,while malondialdehyde(MDA)levels increased by 23.3％.In comparison to the ECK,EWS treatment resulted in a more severe decline in Asat(17.4％-66.4％),gs(49.8％-50.3％),Ci(1.3％),ETR(29.7％-44.9％),Chl(22.1％-37.7％),and TAC(26.2％),with a 32.7％increase in MDA.The most pronounced changes were observed in the EWS group compared to ACK,where Asat,gs,Ci,ETR,Chl and TAC were reduced by 53.4％-78.2％,63.5％-75.5％,9.9％,32.7％-56.9％,36.6％-73.1％,and 47.0％,respectively,while MDA levels increased by 68.1％.Statistical analysis revealed significant interaction effects between SM deficit and O3 stress on Asat,gs,Ci,Chl,TAC,MDA.In conclusion,soil moisture deficit exacerbates the detrimental effects of O3 on photosynthesis in winter wheat.The underlying mechanism involves a reduction in leaf gs and Chl due to SM deficit,leading to insufficient carbon assimilation and impairing the antioxidant system,which,in turn,amplifies lipid peroxidation induced O3 stress and results in a significant decline in Asat.

关键词

臭氧/土壤水分亏缺/冬小麦/光合作用/交互作用

Key words

ozone/soil moisture deficit/winter wheat/photosynthesis/interaction

分类

农业科学

引用本文复制引用

沈新智,吴荣军,徐彦森,尚博,冯燕茹,冯兆忠..土壤水分亏缺加剧了冬小麦光合作用的臭氧伤害效应[J].农业环境科学学报,2025,44(4):880-889,10.

基金项目

国家自然科学基金项目(42275129)National Natural Science Foundation of China(42275129) （42275129）

农业环境科学学报

OA北大核心

ISSN：1672-2043

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